Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

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Current File : /usr/include/linux/genwqe/genwqe_card.h
/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
#ifndef __GENWQE_CARD_H__
#define __GENWQE_CARD_H__

/**
 * IBM Accelerator Family 'GenWQE'
 *
 * (C) Copyright IBM Corp. 2013
 *
 * Author: Frank Haverkamp <haver@linux.vnet.ibm.com>
 * Author: Joerg-Stephan Vogt <jsvogt@de.ibm.com>
 * Author: Michael Jung <mijung@gmx.net>
 * Author: Michael Ruettger <michael@ibmra.de>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License (version 2 only)
 * as published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
 * GNU General Public License for more details.
 */

/*
 * User-space API for the GenWQE card. For debugging and test purposes
 * the register addresses are included here too.
 */

#include <linux/types.h>
#include <linux/ioctl.h>

/* Basename of sysfs, debugfs and /dev interfaces */
#define GENWQE_DEVNAME			"genwqe"

#define GENWQE_TYPE_ALTERA_230		0x00 /* GenWQE4 Stratix-IV-230 */
#define GENWQE_TYPE_ALTERA_530		0x01 /* GenWQE4 Stratix-IV-530 */
#define GENWQE_TYPE_ALTERA_A4		0x02 /* GenWQE5 A4 Stratix-V-A4 */
#define GENWQE_TYPE_ALTERA_A7		0x03 /* GenWQE5 A7 Stratix-V-A7 */

/* MMIO Unit offsets: Each UnitID occupies a defined address range */
#define GENWQE_UID_OFFS(uid)		((uid) << 24)
#define GENWQE_SLU_OFFS			GENWQE_UID_OFFS(0)
#define GENWQE_HSU_OFFS			GENWQE_UID_OFFS(1)
#define GENWQE_APP_OFFS			GENWQE_UID_OFFS(2)
#define GENWQE_MAX_UNITS		3

/* Common offsets per UnitID */
#define IO_EXTENDED_ERROR_POINTER	0x00000048
#define IO_ERROR_INJECT_SELECTOR	0x00000060
#define IO_EXTENDED_DIAG_SELECTOR	0x00000070
#define IO_EXTENDED_DIAG_READ_MBX	0x00000078
#define IO_EXTENDED_DIAG_MAP(ring)	(0x00000500 | ((ring) << 3))

#define GENWQE_EXTENDED_DIAG_SELECTOR(ring, trace) (((ring) << 8) | (trace))

/* UnitID 0: Service Layer Unit (SLU) */

/* SLU: Unit Configuration Register */
#define IO_SLU_UNITCFG			0x00000000
#define IO_SLU_UNITCFG_TYPE_MASK	0x000000000ff00000 /* 27:20 */

/* SLU: Fault Isolation Register (FIR) (ac_slu_fir) */
#define IO_SLU_FIR			0x00000008 /* read only, wr direct */
#define IO_SLU_FIR_CLR			0x00000010 /* read and clear */

/* SLU: First Error Capture Register (FEC/WOF) */
#define IO_SLU_FEC			0x00000018

#define IO_SLU_ERR_ACT_MASK		0x00000020
#define IO_SLU_ERR_ATTN_MASK		0x00000028
#define IO_SLU_FIRX1_ACT_MASK		0x00000030
#define IO_SLU_FIRX0_ACT_MASK		0x00000038
#define IO_SLU_SEC_LEM_DEBUG_OVR	0x00000040
#define IO_SLU_EXTENDED_ERR_PTR		0x00000048
#define IO_SLU_COMMON_CONFIG		0x00000060

#define IO_SLU_FLASH_FIR		0x00000108
#define IO_SLU_SLC_FIR			0x00000110
#define IO_SLU_RIU_TRAP			0x00000280
#define IO_SLU_FLASH_FEC		0x00000308
#define IO_SLU_SLC_FEC			0x00000310

/*
 * The  Virtual Function's Access is from offset 0x00010000
 * The Physical Function's Access is from offset 0x00050000
 * Single Shared Registers exists only at offset 0x00060000
 *
 * SLC: Queue Virtual Window Window for accessing into a specific VF
 * queue. When accessing the 0x10000 space using the 0x50000 address
 * segment, the value indicated here is used to specify which VF
 * register is decoded. This register, and the 0x50000 register space
 * can only be accessed by the PF. Example, if this register is set to
 * 0x2, then a read from 0x50000 is the same as a read from 0x10000
 * from VF=2.
 */

/* SLC: Queue Segment */
#define IO_SLC_QUEUE_SEGMENT		0x00010000
#define IO_SLC_VF_QUEUE_SEGMENT		0x00050000

/* SLC: Queue Offset */
#define IO_SLC_QUEUE_OFFSET		0x00010008
#define IO_SLC_VF_QUEUE_OFFSET		0x00050008

/* SLC: Queue Configuration */
#define IO_SLC_QUEUE_CONFIG		0x00010010
#define IO_SLC_VF_QUEUE_CONFIG		0x00050010

/* SLC: Job Timout/Only accessible for the PF */
#define IO_SLC_APPJOB_TIMEOUT		0x00010018
#define IO_SLC_VF_APPJOB_TIMEOUT	0x00050018
#define TIMEOUT_250MS			0x0000000f
#define HEARTBEAT_DISABLE		0x0000ff00

/* SLC: Queue InitSequence Register */
#define	IO_SLC_QUEUE_INITSQN		0x00010020
#define	IO_SLC_VF_QUEUE_INITSQN		0x00050020

/* SLC: Queue Wrap */
#define IO_SLC_QUEUE_WRAP		0x00010028
#define IO_SLC_VF_QUEUE_WRAP		0x00050028

/* SLC: Queue Status */
#define IO_SLC_QUEUE_STATUS		0x00010100
#define IO_SLC_VF_QUEUE_STATUS		0x00050100

/* SLC: Queue Working Time */
#define IO_SLC_QUEUE_WTIME		0x00010030
#define IO_SLC_VF_QUEUE_WTIME		0x00050030

/* SLC: Queue Error Counts */
#define IO_SLC_QUEUE_ERRCNTS		0x00010038
#define IO_SLC_VF_QUEUE_ERRCNTS		0x00050038

/* SLC: Queue Loast Response Word */
#define IO_SLC_QUEUE_LRW		0x00010040
#define IO_SLC_VF_QUEUE_LRW		0x00050040

/* SLC: Freerunning Timer */
#define IO_SLC_FREE_RUNNING_TIMER	0x00010108
#define IO_SLC_VF_FREE_RUNNING_TIMER	0x00050108

/* SLC: Queue Virtual Access Region */
#define IO_PF_SLC_VIRTUAL_REGION	0x00050000

/* SLC: Queue Virtual Window */
#define IO_PF_SLC_VIRTUAL_WINDOW	0x00060000

/* SLC: DDCB Application Job Pending [n] (n=0:63) */
#define IO_PF_SLC_JOBPEND(n)		(0x00061000 + 8*(n))
#define IO_SLC_JOBPEND(n)		IO_PF_SLC_JOBPEND(n)

/* SLC: Parser Trap RAM [n] (n=0:31) */
#define IO_SLU_SLC_PARSE_TRAP(n)	(0x00011000 + 8*(n))

/* SLC: Dispatcher Trap RAM [n] (n=0:31) */
#define IO_SLU_SLC_DISP_TRAP(n)	(0x00011200 + 8*(n))

/* Global Fault Isolation Register (GFIR) */
#define IO_SLC_CFGREG_GFIR		0x00020000
#define GFIR_ERR_TRIGGER		0x0000ffff

/* SLU: Soft Reset Register */
#define IO_SLC_CFGREG_SOFTRESET		0x00020018

/* SLU: Misc Debug Register */
#define IO_SLC_MISC_DEBUG		0x00020060
#define IO_SLC_MISC_DEBUG_CLR		0x00020068
#define IO_SLC_MISC_DEBUG_SET		0x00020070

/* Temperature Sensor Reading */
#define IO_SLU_TEMPERATURE_SENSOR	0x00030000
#define IO_SLU_TEMPERATURE_CONFIG	0x00030008

/* Voltage Margining Control */
#define IO_SLU_VOLTAGE_CONTROL		0x00030080
#define IO_SLU_VOLTAGE_NOMINAL		0x00000000
#define IO_SLU_VOLTAGE_DOWN5		0x00000006
#define IO_SLU_VOLTAGE_UP5		0x00000007

/* Direct LED Control Register */
#define IO_SLU_LEDCONTROL		0x00030100

/* SLU: Flashbus Direct Access -A5 */
#define IO_SLU_FLASH_DIRECTACCESS	0x00040010

/* SLU: Flashbus Direct Access2 -A5 */
#define IO_SLU_FLASH_DIRECTACCESS2	0x00040020

/* SLU: Flashbus Command Interface -A5 */
#define IO_SLU_FLASH_CMDINTF		0x00040030

/* SLU: BitStream Loaded */
#define IO_SLU_BITSTREAM		0x00040040

/* This Register has a switch which will change the CAs to UR */
#define IO_HSU_ERR_BEHAVIOR		0x01001010

#define IO_SLC2_SQB_TRAP		0x00062000
#define IO_SLC2_QUEUE_MANAGER_TRAP	0x00062008
#define IO_SLC2_FLS_MASTER_TRAP		0x00062010

/* UnitID 1: HSU Registers */
#define IO_HSU_UNITCFG			0x01000000
#define IO_HSU_FIR			0x01000008
#define IO_HSU_FIR_CLR			0x01000010
#define IO_HSU_FEC			0x01000018
#define IO_HSU_ERR_ACT_MASK		0x01000020
#define IO_HSU_ERR_ATTN_MASK		0x01000028
#define IO_HSU_FIRX1_ACT_MASK		0x01000030
#define IO_HSU_FIRX0_ACT_MASK		0x01000038
#define IO_HSU_SEC_LEM_DEBUG_OVR	0x01000040
#define IO_HSU_EXTENDED_ERR_PTR		0x01000048
#define IO_HSU_COMMON_CONFIG		0x01000060

/* UnitID 2: Application Unit (APP) */
#define IO_APP_UNITCFG			0x02000000
#define IO_APP_FIR			0x02000008
#define IO_APP_FIR_CLR			0x02000010
#define IO_APP_FEC			0x02000018
#define IO_APP_ERR_ACT_MASK		0x02000020
#define IO_APP_ERR_ATTN_MASK		0x02000028
#define IO_APP_FIRX1_ACT_MASK		0x02000030
#define IO_APP_FIRX0_ACT_MASK		0x02000038
#define IO_APP_SEC_LEM_DEBUG_OVR	0x02000040
#define IO_APP_EXTENDED_ERR_PTR		0x02000048
#define IO_APP_COMMON_CONFIG		0x02000060

#define IO_APP_DEBUG_REG_01		0x02010000
#define IO_APP_DEBUG_REG_02		0x02010008
#define IO_APP_DEBUG_REG_03		0x02010010
#define IO_APP_DEBUG_REG_04		0x02010018
#define IO_APP_DEBUG_REG_05		0x02010020
#define IO_APP_DEBUG_REG_06		0x02010028
#define IO_APP_DEBUG_REG_07		0x02010030
#define IO_APP_DEBUG_REG_08		0x02010038
#define IO_APP_DEBUG_REG_09		0x02010040
#define IO_APP_DEBUG_REG_10		0x02010048
#define IO_APP_DEBUG_REG_11		0x02010050
#define IO_APP_DEBUG_REG_12		0x02010058
#define IO_APP_DEBUG_REG_13		0x02010060
#define IO_APP_DEBUG_REG_14		0x02010068
#define IO_APP_DEBUG_REG_15		0x02010070
#define IO_APP_DEBUG_REG_16		0x02010078
#define IO_APP_DEBUG_REG_17		0x02010080
#define IO_APP_DEBUG_REG_18		0x02010088

/* Read/write from/to registers */
struct genwqe_reg_io {
	__u64 num;		/* register offset/address */
	__u64 val64;
};

/*
 * All registers of our card will return values not equal this values.
 * If we see IO_ILLEGAL_VALUE on any of our MMIO register reads, the
 * card can be considered as unusable. It will need recovery.
 */
#define IO_ILLEGAL_VALUE		0xffffffffffffffffull

/*
 * Generic DDCB execution interface.
 *
 * This interface is a first prototype resulting from discussions we
 * had with other teams which wanted to use the Genwqe card. It allows
 * to issue a DDCB request in a generic way. The request will block
 * until it finishes or time out with error.
 *
 * Some DDCBs require DMA addresses to be specified in the ASIV
 * block. The interface provies the capability to let the kernel
 * driver know where those addresses are by specifying the ATS field,
 * such that it can replace the user-space addresses with appropriate
 * DMA addresses or DMA addresses of a scatter gather list which is
 * dynamically created.
 *
 * Our hardware will refuse DDCB execution if the ATS field is not as
 * expected. That means the DDCB execution engine in the chip knows
 * where it expects DMA addresses within the ASIV part of the DDCB and
 * will check that against the ATS field definition. Any invalid or
 * unknown ATS content will lead to DDCB refusal.
 */

/* Genwqe chip Units */
#define DDCB_ACFUNC_SLU			0x00  /* chip service layer unit */
#define DDCB_ACFUNC_APP			0x01  /* chip application */

/* DDCB return codes (RETC) */
#define DDCB_RETC_IDLE			0x0000 /* Unexecuted/DDCB created */
#define DDCB_RETC_PENDING		0x0101 /* Pending Execution */
#define DDCB_RETC_COMPLETE		0x0102 /* Cmd complete. No error */
#define DDCB_RETC_FAULT			0x0104 /* App Err, recoverable */
#define DDCB_RETC_ERROR			0x0108 /* App Err, non-recoverable */
#define DDCB_RETC_FORCED_ERROR		0x01ff /* overwritten by driver  */

#define DDCB_RETC_UNEXEC		0x0110 /* Unexe/Removed from queue */
#define DDCB_RETC_TERM			0x0120 /* Terminated */
#define DDCB_RETC_RES0			0x0140 /* Reserved */
#define DDCB_RETC_RES1			0x0180 /* Reserved */

/* DDCB Command Options (CMDOPT) */
#define DDCB_OPT_ECHO_FORCE_NO		0x0000 /* ECHO DDCB */
#define DDCB_OPT_ECHO_FORCE_102		0x0001 /* force return code */
#define DDCB_OPT_ECHO_FORCE_104		0x0002
#define DDCB_OPT_ECHO_FORCE_108		0x0003

#define DDCB_OPT_ECHO_FORCE_110		0x0004 /* only on PF ! */
#define DDCB_OPT_ECHO_FORCE_120		0x0005
#define DDCB_OPT_ECHO_FORCE_140		0x0006
#define DDCB_OPT_ECHO_FORCE_180		0x0007

#define DDCB_OPT_ECHO_COPY_NONE		(0 << 5)
#define DDCB_OPT_ECHO_COPY_ALL		(1 << 5)

/* Definitions of Service Layer Commands */
#define SLCMD_ECHO_SYNC			0x00 /* PF/VF */
#define SLCMD_MOVE_FLASH		0x06 /* PF only */
#define SLCMD_MOVE_FLASH_FLAGS_MODE	0x03 /* bit 0 and 1 used for mode */
#define SLCMD_MOVE_FLASH_FLAGS_DLOAD	0	/* mode: download  */
#define SLCMD_MOVE_FLASH_FLAGS_EMUL	1	/* mode: emulation */
#define SLCMD_MOVE_FLASH_FLAGS_UPLOAD	2	/* mode: upload	   */
#define SLCMD_MOVE_FLASH_FLAGS_VERIFY	3	/* mode: verify	   */
#define SLCMD_MOVE_FLASH_FLAG_NOTAP	(1 << 2)/* just dump DDCB and exit */
#define SLCMD_MOVE_FLASH_FLAG_POLL	(1 << 3)/* wait for RETC >= 0102   */
#define SLCMD_MOVE_FLASH_FLAG_PARTITION	(1 << 4)
#define SLCMD_MOVE_FLASH_FLAG_ERASE	(1 << 5)

enum genwqe_card_state {
	GENWQE_CARD_UNUSED = 0,
	GENWQE_CARD_USED = 1,
	GENWQE_CARD_FATAL_ERROR = 2,
	GENWQE_CARD_RELOAD_BITSTREAM = 3,
	GENWQE_CARD_STATE_MAX,
};

/* common struct for chip image exchange */
struct genwqe_bitstream {
	__u64 data_addr;		/* pointer to image data */
	__u32 size;			/* size of image file */
	__u32 crc;			/* crc of this image */
	__u64 target_addr;		/* starting address in Flash */
	__u32 partition;		/* '0', '1', or 'v' */
	__u32 uid;			/* 1=host/x=dram */

	__u64 slu_id;			/* informational/sim: SluID */
	__u64 app_id;			/* informational/sim: AppID */

	__u16 retc;			/* returned from processing */
	__u16 attn;			/* attention code from processing */
	__u32 progress;			/* progress code from processing */
};

/* Issuing a specific DDCB command */
#define DDCB_LENGTH			256 /* for debug data */
#define DDCB_ASIV_LENGTH		104 /* len of the DDCB ASIV array */
#define DDCB_ASIV_LENGTH_ATS		96  /* ASIV in ATS architecture */
#define DDCB_ASV_LENGTH			64  /* len of the DDCB ASV array  */
#define DDCB_FIXUPS			12  /* maximum number of fixups */

struct genwqe_debug_data {
	char driver_version[64];
	__u64 slu_unitcfg;
	__u64 app_unitcfg;

	__u8  ddcb_before[DDCB_LENGTH];
	__u8  ddcb_prev[DDCB_LENGTH];
	__u8  ddcb_finished[DDCB_LENGTH];
};

/*
 * Address Translation Specification (ATS) definitions
 *
 * Each 4 bit within the ATS 64-bit word specify the required address
 * translation at the defined offset.
 *
 * 63 LSB
 *         6666.5555.5555.5544.4444.4443.3333.3333 ... 11
 *         3210.9876.5432.1098.7654.3210.9876.5432 ... 1098.7654.3210
 *
 * offset: 0x00 0x08 0x10 0x18 0x20 0x28 0x30 0x38 ... 0x68 0x70 0x78
 *         res  res  res  res  ASIV ...
 * The first 4 entries in the ATS word are reserved. The following nibbles
 * each describe at an 8 byte offset the format of the required data.
 */
#define ATS_TYPE_DATA			0x0ull /* data  */
#define ATS_TYPE_FLAT_RD		0x4ull /* flat buffer read only */
#define ATS_TYPE_FLAT_RDWR		0x5ull /* flat buffer read/write */
#define ATS_TYPE_SGL_RD			0x6ull /* sgl read only */
#define ATS_TYPE_SGL_RDWR		0x7ull /* sgl read/write */

#define ATS_SET_FLAGS(_struct, _field, _flags)				\
	(((_flags) & 0xf) << (44 - (4 * (offsetof(_struct, _field) / 8))))

#define ATS_GET_FLAGS(_ats, _byte_offs)					\
	(((_ats)	  >> (44 - (4 * ((_byte_offs) / 8)))) & 0xf)

/**
 * struct genwqe_ddcb_cmd - User parameter for generic DDCB commands
 *
 * On the way into the kernel the driver will read the whole data
 * structure. On the way out the driver will not copy the ASIV data
 * back to user-space.
 */
struct genwqe_ddcb_cmd {
	/* START of data copied to/from driver */
	__u64 next_addr;		/* chaining genwqe_ddcb_cmd */
	__u64 flags;			/* reserved */

	__u8  acfunc;			/* accelerators functional unit */
	__u8  cmd;			/* command to execute */
	__u8  asiv_length;		/* used parameter length */
	__u8  asv_length;		/* length of valid return values  */
	__u16 cmdopts;			/* command options */
	__u16 retc;			/* return code from processing    */

	__u16 attn;			/* attention code from processing */
	__u16 vcrc;			/* variant crc16 */
	__u32 progress;			/* progress code from processing  */

	__u64 deque_ts;			/* dequeue time stamp */
	__u64 cmplt_ts;			/* completion time stamp */
	__u64 disp_ts;			/* SW processing start */

	/* move to end and avoid copy-back */
	__u64 ddata_addr;		/* collect debug data */

	/* command specific values */
	__u8  asv[DDCB_ASV_LENGTH];

	/* END of data copied from driver */
	union {
		struct {
			__u64 ats;
			__u8  asiv[DDCB_ASIV_LENGTH_ATS];
		};
		/* used for flash update to keep it backward compatible */
		__u8 __asiv[DDCB_ASIV_LENGTH];
	};
	/* END of data copied to driver */
};

#define GENWQE_IOC_CODE	    0xa5

/* Access functions */
#define GENWQE_READ_REG64   _IOR(GENWQE_IOC_CODE, 30, struct genwqe_reg_io)
#define GENWQE_WRITE_REG64  _IOW(GENWQE_IOC_CODE, 31, struct genwqe_reg_io)
#define GENWQE_READ_REG32   _IOR(GENWQE_IOC_CODE, 32, struct genwqe_reg_io)
#define GENWQE_WRITE_REG32  _IOW(GENWQE_IOC_CODE, 33, struct genwqe_reg_io)
#define GENWQE_READ_REG16   _IOR(GENWQE_IOC_CODE, 34, struct genwqe_reg_io)
#define GENWQE_WRITE_REG16  _IOW(GENWQE_IOC_CODE, 35, struct genwqe_reg_io)

#define GENWQE_GET_CARD_STATE _IOR(GENWQE_IOC_CODE, 36,	enum genwqe_card_state)

/**
 * struct genwqe_mem - Memory pinning/unpinning information
 * @addr:          virtual user space address
 * @size:          size of the area pin/dma-map/unmap
 * direction:      0: read/1: read and write
 *
 * Avoid pinning and unpinning of memory pages dynamically. Instead
 * the idea is to pin the whole buffer space required for DDCB
 * opertionas in advance. The driver will reuse this pinning and the
 * memory associated with it to setup the sglists for the DDCB
 * requests without the need to allocate and free memory or map and
 * unmap to get the DMA addresses.
 *
 * The inverse operation needs to be called after the pinning is not
 * needed anymore. The pinnings else the pinnings will get removed
 * after the device is closed. Note that pinnings will required
 * memory.
 */
struct genwqe_mem {
	__u64 addr;
	__u64 size;
	__u64 direction;
	__u64 flags;
};

#define GENWQE_PIN_MEM	      _IOWR(GENWQE_IOC_CODE, 40, struct genwqe_mem)
#define GENWQE_UNPIN_MEM      _IOWR(GENWQE_IOC_CODE, 41, struct genwqe_mem)

/*
 * Generic synchronous DDCB execution interface.
 * Synchronously execute a DDCB.
 *
 * Return: 0 on success or negative error code.
 *         -EINVAL: Invalid parameters (ASIV_LEN, ASV_LEN, illegal fixups
 *                  no mappings found/could not create mappings
 *         -EFAULT: illegal addresses in fixups, purging failed
 *         -EBADMSG: enqueing failed, retc != DDCB_RETC_COMPLETE
 */
#define GENWQE_EXECUTE_DDCB					\
	_IOWR(GENWQE_IOC_CODE, 50, struct genwqe_ddcb_cmd)

#define GENWQE_EXECUTE_RAW_DDCB					\
	_IOWR(GENWQE_IOC_CODE, 51, struct genwqe_ddcb_cmd)

/* Service Layer functions (PF only) */
#define GENWQE_SLU_UPDATE  _IOWR(GENWQE_IOC_CODE, 80, struct genwqe_bitstream)
#define GENWQE_SLU_READ	   _IOWR(GENWQE_IOC_CODE, 81, struct genwqe_bitstream)

#endif	/* __GENWQE_CARD_H__ */

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